An insertion of transposon in DcNAP inverted its function in the ethylene pathway to delay petal senescence in carnation (Dianthus caryophyllus L.)

Petal senescence is the final stage of flower development. Transcriptional regulation plays key roles in this process. However, whether and how post‐transcriptional regulation involved is still largely unknown. Here, we identified an ethylene‐induced NAC family transcription factor DcNAP in carnatio...

Descripción completa

Detalles Bibliográficos
Autores principales: Sun, Zheng, Wu, Manman, Wang, Siqi, Feng, Shan, Wang, Yan, Wang, Teng, Zhu, Chunlin, Jiang, Xinyu, Wang, Hongya, Wang, Ruiming, Yuan, Xinyi, Wang, Menglu, Zhong, Linlin, Cheng, Yunjiang, Bao, Manzhu, Zhang, Fan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2023
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10579710/
https://www.ncbi.nlm.nih.gov/pubmed/37626478
http://dx.doi.org/10.1111/pbi.14132
_version_ 1785121783294197760
author Sun, Zheng
Wu, Manman
Wang, Siqi
Feng, Shan
Wang, Yan
Wang, Teng
Zhu, Chunlin
Jiang, Xinyu
Wang, Hongya
Wang, Ruiming
Yuan, Xinyi
Wang, Menglu
Zhong, Linlin
Cheng, Yunjiang
Bao, Manzhu
Zhang, Fan
author_facet Sun, Zheng
Wu, Manman
Wang, Siqi
Feng, Shan
Wang, Yan
Wang, Teng
Zhu, Chunlin
Jiang, Xinyu
Wang, Hongya
Wang, Ruiming
Yuan, Xinyi
Wang, Menglu
Zhong, Linlin
Cheng, Yunjiang
Bao, Manzhu
Zhang, Fan
author_sort Sun, Zheng
collection PubMed
description Petal senescence is the final stage of flower development. Transcriptional regulation plays key roles in this process. However, whether and how post‐transcriptional regulation involved is still largely unknown. Here, we identified an ethylene‐induced NAC family transcription factor DcNAP in carnation (Dianthus caryophyllus L.). One allele, DcNAP‐dTdic1, has an insertion of a dTdic1 transposon in its second exon. The dTdic1 transposon disrupts the structure of DcNAP and causes alternative splicing, which transcribes multiple domain‐deleted variants (DcNAP2 and others). Conversely, the wild type allele DcNAP transcribes DcNAP1 encoding an intact NAC domain. Silencing DcNAP1 delays and overexpressing DcNAP1 accelerates petal senescence in carnation, while silencing and overexpressing DcNAP2 have the opposite effects, respectively. Further, DcNAP2 could interact with DcNAP1 and interfere the binding and activation activity of DcNAP1 to the promoters of its downstream target ethylene biosynthesis genes DcACS1 and DcACO1. Lastly, ethylene signalling core transcriptional factor DcEIL3‐1 can activate the expression of DcNAP1 and DcNAP2 in the same way by binding their promoters. In summary, we discovered a novel mechanism by which DcNAP regulates carnation petal senescence at the post‐transcriptional level. It may also provide a useful strategy to manipulate the NAC domains of NAC transcription factors for crop genetic improvement.
format Online
Article
Text
id pubmed-10579710
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher John Wiley and Sons Inc.
record_format MEDLINE/PubMed
spelling pubmed-105797102023-10-18 An insertion of transposon in DcNAP inverted its function in the ethylene pathway to delay petal senescence in carnation (Dianthus caryophyllus L.) Sun, Zheng Wu, Manman Wang, Siqi Feng, Shan Wang, Yan Wang, Teng Zhu, Chunlin Jiang, Xinyu Wang, Hongya Wang, Ruiming Yuan, Xinyi Wang, Menglu Zhong, Linlin Cheng, Yunjiang Bao, Manzhu Zhang, Fan Plant Biotechnol J Research Articles Petal senescence is the final stage of flower development. Transcriptional regulation plays key roles in this process. However, whether and how post‐transcriptional regulation involved is still largely unknown. Here, we identified an ethylene‐induced NAC family transcription factor DcNAP in carnation (Dianthus caryophyllus L.). One allele, DcNAP‐dTdic1, has an insertion of a dTdic1 transposon in its second exon. The dTdic1 transposon disrupts the structure of DcNAP and causes alternative splicing, which transcribes multiple domain‐deleted variants (DcNAP2 and others). Conversely, the wild type allele DcNAP transcribes DcNAP1 encoding an intact NAC domain. Silencing DcNAP1 delays and overexpressing DcNAP1 accelerates petal senescence in carnation, while silencing and overexpressing DcNAP2 have the opposite effects, respectively. Further, DcNAP2 could interact with DcNAP1 and interfere the binding and activation activity of DcNAP1 to the promoters of its downstream target ethylene biosynthesis genes DcACS1 and DcACO1. Lastly, ethylene signalling core transcriptional factor DcEIL3‐1 can activate the expression of DcNAP1 and DcNAP2 in the same way by binding their promoters. In summary, we discovered a novel mechanism by which DcNAP regulates carnation petal senescence at the post‐transcriptional level. It may also provide a useful strategy to manipulate the NAC domains of NAC transcription factors for crop genetic improvement. John Wiley and Sons Inc. 2023-08-25 2023-11 /pmc/articles/PMC10579710/ /pubmed/37626478 http://dx.doi.org/10.1111/pbi.14132 Text en © 2023 The Authors. Plant Biotechnology Journal published by Society for Experimental Biology and The Association of Applied Biologists and John Wiley & Sons Ltd. https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc-nd/4.0/ (https://creativecommons.org/licenses/by-nc-nd/4.0/) License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non‐commercial and no modifications or adaptations are made.
spellingShingle Research Articles
Sun, Zheng
Wu, Manman
Wang, Siqi
Feng, Shan
Wang, Yan
Wang, Teng
Zhu, Chunlin
Jiang, Xinyu
Wang, Hongya
Wang, Ruiming
Yuan, Xinyi
Wang, Menglu
Zhong, Linlin
Cheng, Yunjiang
Bao, Manzhu
Zhang, Fan
An insertion of transposon in DcNAP inverted its function in the ethylene pathway to delay petal senescence in carnation (Dianthus caryophyllus L.)
title An insertion of transposon in DcNAP inverted its function in the ethylene pathway to delay petal senescence in carnation (Dianthus caryophyllus L.)
title_full An insertion of transposon in DcNAP inverted its function in the ethylene pathway to delay petal senescence in carnation (Dianthus caryophyllus L.)
title_fullStr An insertion of transposon in DcNAP inverted its function in the ethylene pathway to delay petal senescence in carnation (Dianthus caryophyllus L.)
title_full_unstemmed An insertion of transposon in DcNAP inverted its function in the ethylene pathway to delay petal senescence in carnation (Dianthus caryophyllus L.)
title_short An insertion of transposon in DcNAP inverted its function in the ethylene pathway to delay petal senescence in carnation (Dianthus caryophyllus L.)
title_sort insertion of transposon in dcnap inverted its function in the ethylene pathway to delay petal senescence in carnation (dianthus caryophyllus l.)
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10579710/
https://www.ncbi.nlm.nih.gov/pubmed/37626478
http://dx.doi.org/10.1111/pbi.14132
work_keys_str_mv AT sunzheng aninsertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT wumanman aninsertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT wangsiqi aninsertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT fengshan aninsertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT wangyan aninsertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT wangteng aninsertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT zhuchunlin aninsertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT jiangxinyu aninsertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT wanghongya aninsertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT wangruiming aninsertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT yuanxinyi aninsertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT wangmenglu aninsertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT zhonglinlin aninsertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT chengyunjiang aninsertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT baomanzhu aninsertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT zhangfan aninsertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT sunzheng insertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT wumanman insertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT wangsiqi insertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT fengshan insertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT wangyan insertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT wangteng insertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT zhuchunlin insertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT jiangxinyu insertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT wanghongya insertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT wangruiming insertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT yuanxinyi insertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT wangmenglu insertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT zhonglinlin insertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT chengyunjiang insertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT baomanzhu insertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl
AT zhangfan insertionoftransposonindcnapinverteditsfunctionintheethylenepathwaytodelaypetalsenescenceincarnationdianthuscaryophyllusl

Ejemplares similares